Linear Response of a Quantal Spin (S=1/2) Interacting Weakly with Heat Bath : General Physics
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概要
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For a quantal spin S (magnitude 1/2) interacting weakly with heat bath, the fluctuation-dissipation theorem, dispersion relation and sum rules are discussed by the method of TCL equations with external driving terms (the TCLE method). The transverse susceptibility of the quantal spin is numerically calculated using the TCLE method for the case of a boson-like bath including a quickly damped subsystem, comparing with the results obtained using the relaxation method under decoupled initial conditions of the spin and bath. It is shown that the interference terms in the TCLE method produce the effects which enhance the peaks of line shapes and abase the line shapes at the small frequency region. It is also shown that the peaks of line shapes are enhanced as the temperature becomes low, as shown for the case of a spin-like bath. For the case of a boson-like bath including a subsystem with finite damping constants, the transverse susceptibility is calculated using the TCLE method numerically.
- 社団法人日本物理学会の論文
- 2000-05-15
著者
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Saeki Mizuhiko
Toyama National College Of Maritime Technology
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Saeki Mizuhiko
Toyama Mercantile Marine College
関連論文
- Relation between TCLE Method and Relaxation Method.II
- Generalized Master Equations for Driven System
- Transverse Susceptibilities of a Quantal Spin (S=1/2) : Condensed Matter and Statistical Physics
- A Generalized Equation of Motion for the Linear Response. II : Simple Application to a Quantal Oscillator : Condensed Matter and Statistical Physics
- Linear Response of a Quantal Spin (S=1/2) Interacting Weakly with Heat Bath : General Physics
- Linear Response in an Interacting Boson System(Condensed Matter and Statistical Physics)
- Stochastic Equations of Motion for the Linear Response.II.Simple Example : An Extended Kubo-Anderson Model
- A Quantum Field Theoretical Approach to the TCLE Method(Condensed Matter and Statistical Physics)
- A Generalized Master Equation for a Driven Quantal Oscillator
- Stochastic Equations of Motion for the Linear Response.I.General Theory
- Relation between Method of TCL Equation with External Terms and Relaxation Method : Quantal Bath Model : Condensed Matter and Statistical Physics
- A Generalized Equation of Motion for the Linear Response. III : Simple Application to a Quantal Spin : Condensed Matter and Statistical Physics
- A Generalized Equation of Motion for the Linear Response. I : General Theory